/** Convert an amount expressed in the way humans are used to into satoshis. */
public static Coin valueOf(final int coins, final int cents) {
checkArgument(cents < 100);
checkArgument(cents >= 0);
checkArgument(coins >= 0);
final Coin coin = COIN.multiply(coins).add(CENT.multiply(cents));
checkArgument(coin.compareTo(NetworkParameters.MAX_MONEY) <= 0);
return coin;
}
@GuardedBy("lock")
private void receiveUpdatePaymentMessage(Protos.UpdatePayment msg, boolean sendAck)
throws VerificationException, ValueOutOfRangeException, InsufficientMoneyException {
log.info("Got a payment update");
Coin lastBestPayment = state.getBestValueToMe();
final Coin refundSize = Coin.valueOf(msg.getClientChangeValue());
boolean stillUsable = state.incrementPayment(refundSize, msg.getSignature().toByteArray());
Coin bestPaymentChange = state.getBestValueToMe().subtract(lastBestPayment);
ListenableFuture<ByteString> ackInfoFuture = null;
if (bestPaymentChange.signum() > 0) {
ByteString info = (msg.hasInfo()) ? msg.getInfo() : null;
ackInfoFuture = conn.paymentIncrease(bestPaymentChange, state.getBestValueToMe(), info);
}
if (sendAck) {
final Protos.TwoWayChannelMessage.Builder ack = Protos.TwoWayChannelMessage.newBuilder();
ack.setType(Protos.TwoWayChannelMessage.MessageType.PAYMENT_ACK);
if (ackInfoFuture == null) {
conn.sendToClient(ack.build());
} else {
Futures.addCallback(
ackInfoFuture,
new FutureCallback<ByteString>() {
@Override
public void onSuccess(@Nullable ByteString result) {
if (result != null) ack.setPaymentAck(ack.getPaymentAckBuilder().setInfo(result));
conn.sendToClient(ack.build());
}
@Override
public void onFailure(Throwable t) {
log.info("Failed retrieving paymentIncrease info future");
error(
"Failed processing payment update",
Protos.Error.ErrorCode.OTHER,
CloseReason.UPDATE_PAYMENT_FAILED);
}
});
}
}
if (!stillUsable) {
log.info("Channel is now fully exhausted, closing/initiating settlement");
settlePayment(CloseReason.CHANNEL_EXHAUSTED);
}
}
/** Similar to parseCoin, but allows for inexact representations to be rounded */
public static Coin parseCoinInexact(final String str) {
return Coin.valueOf(
new BigDecimal(str)
.movePointRight(SMALLEST_UNIT_EXPONENT)
.setScale(0, BigDecimal.ROUND_HALF_UP)
.toBigInteger()
.longValue());
}
/** Represents a monetary Bitcoin value. This class is immutable. */
public final class Coin implements Monetary, Comparable<Coin>, Serializable {
/**
* Number of decimals for one Peercoin. This constant is useful for quick adapting to other coins
* because a lot of constants derive from it.
*/
public static final int SMALLEST_UNIT_EXPONENT = 6;
/** The number of satoshis equal to one peercoin. */
private static final long COIN_VALUE = LongMath.pow(10, SMALLEST_UNIT_EXPONENT);
/** Zero Peercoins. */
public static final Coin ZERO = Coin.valueOf(0);
/** One Peercoin. */
public static final Coin COIN = Coin.valueOf(COIN_VALUE);
/** 0.01 Peercoins. This unit is not really used much. */
public static final Coin CENT = COIN.divide(100);
/** 0.001 Peercoins, also known as 1 mPPC. */
public static final Coin MILLICOIN = COIN.divide(1000);
/** 0.000001 Peercoin, also known as 1 µPPC or 1 uPPC. */
public static final Coin MICROCOIN = MILLICOIN.divide(1000);
/**
* A satoshi is the smallest unit that can be transferred. 1 million of them fit into a Peercoin.
*/
public static final Coin SATOSHI = Coin.valueOf(1);
/** Represents a monetary value of minus one satoshi. */
public static final Coin NEGATIVE_SATOSHI = Coin.valueOf(-1);
/** The number of satoshis of this monetary value. */
public final long value;
private final long MAX_SATOSHIS = COIN_VALUE * NetworkParameters.MAX_COINS;
private Coin(final long satoshis) {
checkArgument(
-MAX_SATOSHIS <= satoshis && satoshis <= MAX_SATOSHIS,
"%s satoshis exceeds maximum possible quantity of Peercoin.",
satoshis);
this.value = satoshis;
}
public static Coin valueOf(final long satoshis) {
return new Coin(satoshis);
}
@Override
public int smallestUnitExponent() {
return SMALLEST_UNIT_EXPONENT;
}
/** Returns the number of satoshis of this monetary value. */
@Override
public long getValue() {
return value;
}
/** Convert an amount expressed in the way humans are used to into satoshis. */
public static Coin valueOf(final int coins, final int cents) {
checkArgument(cents < 100);
checkArgument(cents >= 0);
checkArgument(coins >= 0);
final Coin coin = COIN.multiply(coins).add(CENT.multiply(cents));
checkArgument(coin.compareTo(NetworkParameters.MAX_MONEY) <= 0);
return coin;
}
/**
* Parses an amount expressed in the way humans are used to.
*
* <p>
*
* <p>This takes string in a format understood by {@link BigDecimal#BigDecimal(String)}, for
* example "0", "1", "0.10", "1.23E3", "1234.5E-5".
*
* @throws IllegalArgumentException if you try to specify fractional satoshis, or a value out of
* range.
*/
public static Coin parseCoin(final String str) {
return Coin.valueOf(
new BigDecimal(str).movePointRight(SMALLEST_UNIT_EXPONENT).toBigIntegerExact().longValue());
}
/** Similar to parseCoin, but allows for inexact representations to be rounded */
public static Coin parseCoinInexact(final String str) {
return Coin.valueOf(
new BigDecimal(str)
.movePointRight(SMALLEST_UNIT_EXPONENT)
.setScale(0, BigDecimal.ROUND_HALF_UP)
.toBigInteger()
.longValue());
}
public Coin add(final Coin value) {
return new Coin(LongMath.checkedAdd(this.value, value.value));
}
public Coin subtract(final Coin value) {
return new Coin(LongMath.checkedSubtract(this.value, value.value));
}
public Coin multiply(final long factor) {
return new Coin(LongMath.checkedMultiply(this.value, factor));
}
public Coin divide(final long divisor) {
return new Coin(this.value / divisor);
}
public Coin[] divideAndRemainder(final long divisor) {
return new Coin[] {new Coin(this.value / divisor), new Coin(this.value % divisor)};
}
public long divide(final Coin divisor) {
return this.value / divisor.value;
}
/**
* Returns true if and only if this instance represents a monetary value greater than zero,
* otherwise false.
*/
public boolean isPositive() {
return signum() == 1;
}
/**
* Returns true if and only if this instance represents a monetary value less than zero, otherwise
* false.
*/
public boolean isNegative() {
return signum() == -1;
}
/** Returns true if and only if this instance represents zero monetary value, otherwise false. */
public boolean isZero() {
return signum() == 0;
}
/**
* Returns true if the monetary value represented by this instance is greater than that of the
* given other Coin, otherwise false.
*/
public boolean isGreaterThan(Coin other) {
return compareTo(other) > 0;
}
/**
* Returns true if the monetary value represented by this instance is less than that of the given
* other Coin, otherwise false.
*/
public boolean isLessThan(Coin other) {
return compareTo(other) < 0;
}
public Coin shiftLeft(final int n) {
return new Coin(this.value << n);
}
public Coin shiftRight(final int n) {
return new Coin(this.value >> n);
}
@Override
public int signum() {
if (this.value == 0) return 0;
return this.value < 0 ? -1 : 1;
}
public Coin negate() {
return new Coin(-this.value);
}
/**
* Returns the number of satoshis of this monetary value. It's deprecated in favour of accessing
* {@link #value} directly.
*/
public long longValue() {
return this.value;
}
private static final MonetaryFormat FRIENDLY_FORMAT =
MonetaryFormat.PPC.minDecimals(2).repeatOptionalDecimals(1, 4).postfixCode();
/**
* Returns the value as a 0.12 type string. More digits after the decimal place will be used if
* necessary, but two will always be present.
*/
public String toFriendlyString() {
return FRIENDLY_FORMAT.format(this).toString();
}
private static final MonetaryFormat PLAIN_FORMAT =
MonetaryFormat.PPC.minDecimals(0).repeatOptionalDecimals(1, 6).noCode();
/**
* Returns the value as a plain string denominated in PPC. The result is unformatted with no
* trailing zeroes. For instance, a value of 150000 satoshis gives an output string of "0.0015"
* PPC
*/
public String toPlainString() {
return PLAIN_FORMAT.format(this).toString();
}
@Override
public String toString() {
return Long.toString(value);
}
@Override
public boolean equals(final Object o) {
if (o == this) return true;
if (o == null || o.getClass() != getClass()) return false;
final Coin other = (Coin) o;
if (this.value != other.value) return false;
return true;
}
@Override
public int hashCode() {
return (int) this.value;
}
@Override
public int compareTo(final Coin other) {
if (this.value == other.value) return 0;
return this.value > other.value ? 1 : -1;
}
}
/**
* Parses an amount expressed in the way humans are used to.
*
* <p>
*
* <p>This takes string in a format understood by {@link BigDecimal#BigDecimal(String)}, for
* example "0", "1", "0.10", "1.23E3", "1234.5E-5".
*
* @throws IllegalArgumentException if you try to specify fractional satoshis, or a value out of
* range.
*/
public static Coin parseCoin(final String str) {
return Coin.valueOf(
new BigDecimal(str).movePointRight(SMALLEST_UNIT_EXPONENT).toBigIntegerExact().longValue());
}
